Company Filing History:
Years Active: 2003
Title: Inventor Cornelius J. Dennehy and His Innovative Contributions
Introduction
Cornelius J. Dennehy is a noteworthy inventor based in Severna Park, Maryland, recognized for his contributions to aerospace technology. With a focus on improving the functionality of aerospace vehicles, his inventive spirit shines through in his patented innovations.
Latest Patents
Dennehy holds one patent for his invention titled "Miniature Attitude Sensing Suite." This innovative patent provides methods and apparatus for determining the inertial attitude of an aerospace vehicle. In one embodiment, the invention introduces a rotational astronomical object-sighting concept that determines the inertial attitude of the vehicle’s axis without the need for star identification or dragback. Another embodiment of his invention features an attitude measurement apparatus that includes a high sensitivity optical sensor and a low power inertial sensor, showcasing Dennehy's commitment to advancing aerospace technology.
Career Highlights
Dennehy is associated with The Charles Stark Draper Laboratory, Inc., an esteemed research institution known for its work in engineering and robotics. His role there underscores his involvement in cutting-edge projects that aim to enhance the performance and reliability of aerospace systems.
Collaborations
Throughout his career, Dennehy has collaborated with talented professionals, including colleagues William M. Johnson and Howard Musoff. These collaborations have contributed to the innovative spirit of the projects they spearhead, ultimately leading to technological advancements in their respective fields.
Conclusion
Cornelius J. Dennehy's contributions to the field of aerospace innovation demonstrate his dedication to improving vehicle performance through advanced sensing technologies. His patented inventions not only represent personal achievement but also reflect the collective effort of his esteemed colleagues at The Charles Stark Draper Laboratory, Inc. Dennehy's work continues to inspire future innovations in aerospace engineering.